Photoassociation, cold molecules and prospects

B. Laburthe Tolra, C. Drag, S. Boussen, B. T'Jampens, C. Dion, S. Guibal, D. Comparat, O. Dulieu, A. Crubellier, F. Masnou-Seeuws, P. Pillet
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Abstract

Photoassociation of cold atoms opens a promising way for the obtention of dense samples of cold molecules. In a photoassociation process, two atoms absorb resonantly one photon to form a cold molecule in a ro-vibrational level of an electronically excited state. Unfortunately, for most of the considered configurations, molecules dissociate after spontaneous emission. Long-range states below the dissociation limits 6s+6p of the cesium dimer present several configurations with Condon points at intermediate distances, offering efficient channels for the formation of Cs2 molecules in the ground state or in the lowest triplet state. Temperatures of the molecular cloud of 20 μK and formation rates of  0.1 cold molecule per second and per atom have been measured. The cold molecular sample is however prepared in several ro-vibrational levels. The possibility to stimulate the emission and to prepare all the molecules in a selected well-defined ro-vibrational level has been demonstrated. This stimulated Raman process opens the way to prepare cold molecules in all degrees of freedom (translation, vibration and rotation).

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光缔合、冷分子及其展望
冷原子的光缔合为观察致密的冷分子样品开辟了一条有希望的途径。在光缔合过程中,两个原子共振地吸收一个光子,形成一个电子激发态的无振动水平的冷分子。不幸的是,对于大多数考虑的构型,分子在自发发射后解离。在铯二聚体的离解极限6s+6p以下的长程态呈现出几种中间距离有Condon点的构型,为处于基态或最低三重态的Cs2分子的形成提供了有效的通道。测得分子云温度为20 μK,形成速率为0.1个冷分子/秒和每原子/秒。然而,冷分子样品是在几个反振动水平制备的。已经证明了刺激发射和在选定的明确定义的反振动水平上制备所有分子的可能性。这种受激拉曼过程为制备所有自由度(平移、振动和旋转)的冷分子开辟了道路。
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